表征压缩持续时间和与变形相关的闭合力损失对大鼠夹闭诱导脊髓损伤的影响。

Characterizing the Impact of Compression Duration and Deformation-Related Loss of Closure Force on Clip-Induced Spinal Cord Injury in Rats.

作者信息

Lee Po-Hsuan, Hsu Heng-Juei, Tien Chih-Hao, Huang Chi-Chen, Huang Chih-Yuan, Chen Hui-Fang, Yeh Ming-Long, Lee Jung-Shun

机构信息

Division of Neurosurgery, Department of Surgery, National Cheng Kung University Hospital, Tainan 701, Taiwan.

Department of Neurosurgery, Tainan Municipal Hospital, Tainan 701, Taiwan.

出版信息

Neurol Int. 2023 Nov 13;15(4):1383-1392. doi: 10.3390/neurolint15040088.

DOI:10.3390/neurolint15040088

PMID:37987461

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10661265/

Abstract

The clip-induced spinal cord injury (SCI) rat model is pivotal in preclinical SCI research. However, the literature exhibits variability in compression duration and limited attention to clip deformation-related loss of closure force. We aimed to investigate the impact of compression duration on SCI severity and the influence of clip deformation on closure force. Rats received T10-level clip-induced SCI with durations of 1, 5, 10, 20, and 30 s, and a separate group underwent T10 transection. Outcomes included functional, histological, electrophysiological assessments, and inflammatory cytokine analysis. A tactile pressure mapping system quantified clip closure force after open-close cycles. Our results showed a positive correlation between compression duration and the severity of functional, histological, and electrophysiological deficits. Remarkably, even a brief 1-s compression caused significant deficits comparable to moderate-to-severe SCI. SSEP waveforms were abolished with durations over 20 s. Decreased clip closure force appeared after five open-close cycles. This study offers critical insights into regulating SCI severity in rat models, aiding researchers. Understanding compression duration and clip fatigue is essential for experiment design and interpretation using the clip-induced SCI model.

摘要

夹闭诱导的脊髓损伤（SCI）大鼠模型在临床前SCI研究中至关重要。然而，文献中在压迫持续时间方面存在差异，并且对与夹子变形相关的闭合力损失关注有限。我们旨在研究压迫持续时间对SCI严重程度的影响以及夹子变形对闭合力的影响。大鼠接受T10水平夹闭诱导的SCI，压迫持续时间分别为1、5、10、20和30秒，另一组进行T10横断术。结果包括功能、组织学、电生理评估以及炎性细胞因子分析。一个触觉压力映射系统在开合循环后量化夹子闭合力。我们的结果显示压迫持续时间与功能、组织学和电生理缺陷的严重程度呈正相关。值得注意的是，即使短暂的1秒压迫也会导致与中度至重度SCI相当的显著缺陷。持续时间超过20秒时，体感诱发电位（SSEP）波形消失。在五个开合循环后，夹子闭合力降低。本研究为调节大鼠模型中SCI的严重程度提供了关键见解，有助于研究人员。了解压迫持续时间和夹子疲劳对于使用夹闭诱导的SCI模型进行实验设计和解释至关重要。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c678/10661265/f038cd133d59/neurolint-15-00088-g001.jpg

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表征压缩持续时间和与变形相关的闭合力损失对大鼠夹闭诱导脊髓损伤的影响。

Characterizing the Impact of Compression Duration and Deformation-Related Loss of Closure Force on Clip-Induced Spinal Cord Injury in Rats.

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